HIV-1 glycan density drives the persistence of the mannose patch within an infected individual
HIV-1 glycan density drives the persistence of the mannose patch within an infected individual
The HIV envelope glycoprotein (Env) is extensively modified with host-derived N-linked glycans. The high density of glycosylation on the viral spike limits enzymatic processing, resulting in numerous underprocessed oligomannose-type glycans. This extensive glycosylation not only shields conserved regions of the protein from the immune system but also acts as a target for anti- HIV broadly neutralizing antibodies (bnAbs). In response to the host immune system, the HIV glycan shield is constantly evolving through mutations affecting both the positions and numbers of potential N-linked glycosylation sites (PNGSs). Here, using longitudinal Env sequences from a clade C-infected individual (CAP256), we measured the impact of the shifting glycan shield during HIV infection on the abundance of oligomannose-type glycans. By analyzing the intrinsic mannose patch from a panel of recombinant CAP256 gp120s displaying high protein sequence variability and changes in PNGS number and positioning, we show that the intrinsic mannose patch persists throughout the course of HIV infection and correlates with the number of PNGSs. This effect of the glycan density on the processing state was also supported by the analysis of a cross-clade panel of recombinant gp120 glycoproteins. Together, these observations underscore the importance of glycan clustering for the generation of carbohydrate epitopes for anti-HIV bnAbs. The persistence of the intrinsic mannose patch over the course of HIV infection further highlights this epitope as an important target for HIV vaccine strategies.
11132-11144
Coss, Karen P.
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Vasiljevic, Snezana
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Pritchard, Laura K.
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Krumm, Stefanie A.
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Glaze, Molly
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Madzorera, Sharon
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Moore, Penny L.
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Crispin, Matthew
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Doores, Katie J.
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Coss, Karen P.
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Vasiljevic, Snezana
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Pritchard, Laura K.
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Krumm, Stefanie A.
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Glaze, Molly
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Madzorera, Sharon
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Moore, Penny L.
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Crispin, Matthew
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Doores, Katie J.
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Coss, Karen P., Vasiljevic, Snezana, Pritchard, Laura K., Krumm, Stefanie A., Glaze, Molly, Madzorera, Sharon, Moore, Penny L., Crispin, Matthew and Doores, Katie J.
(2016)
HIV-1 glycan density drives the persistence of the mannose patch within an infected individual.
Journal of Virology, 90 (24), .
(doi:10.1128/JVI.01542-16).
Abstract
The HIV envelope glycoprotein (Env) is extensively modified with host-derived N-linked glycans. The high density of glycosylation on the viral spike limits enzymatic processing, resulting in numerous underprocessed oligomannose-type glycans. This extensive glycosylation not only shields conserved regions of the protein from the immune system but also acts as a target for anti- HIV broadly neutralizing antibodies (bnAbs). In response to the host immune system, the HIV glycan shield is constantly evolving through mutations affecting both the positions and numbers of potential N-linked glycosylation sites (PNGSs). Here, using longitudinal Env sequences from a clade C-infected individual (CAP256), we measured the impact of the shifting glycan shield during HIV infection on the abundance of oligomannose-type glycans. By analyzing the intrinsic mannose patch from a panel of recombinant CAP256 gp120s displaying high protein sequence variability and changes in PNGS number and positioning, we show that the intrinsic mannose patch persists throughout the course of HIV infection and correlates with the number of PNGSs. This effect of the glycan density on the processing state was also supported by the analysis of a cross-clade panel of recombinant gp120 glycoproteins. Together, these observations underscore the importance of glycan clustering for the generation of carbohydrate epitopes for anti-HIV bnAbs. The persistence of the intrinsic mannose patch over the course of HIV infection further highlights this epitope as an important target for HIV vaccine strategies.
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J. Virol.-2016-Coss-11132-44
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Accepted/In Press date: 26 September 2016
e-pub ahead of print date: 5 October 2016
Identifiers
Local EPrints ID: 414430
URI: http://eprints.soton.ac.uk/id/eprint/414430
ISSN: 0022-538X
PURE UUID: cab9f39a-8f37-45f2-8a3c-b0773c5d08a7
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Date deposited: 28 Sep 2017 16:31
Last modified: 16 Mar 2024 04:30
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Contributors
Author:
Karen P. Coss
Author:
Snezana Vasiljevic
Author:
Laura K. Pritchard
Author:
Stefanie A. Krumm
Author:
Molly Glaze
Author:
Sharon Madzorera
Author:
Penny L. Moore
Author:
Katie J. Doores
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